The negatively charged tin-vacancy (SnV-) center in diamond is a promising solid-state qubit
for applications in quantum networking due to its high quantum efficiency, strong zero …

Van der Waals (vdW) materials have emerged as a promising platform for the generation of
single-photon emitters, attracting considerable interest in the past several years. This …

Robust spin-photon interfaces in solids are essential components in quantum networking
and sensing technologies. Ideally, these interfaces combine a long-lived spin memory …

In this review, the current landscape of emergent quantum materials for quantum photonic
applications is described. The review focuses on three specific solid‐state platforms: single …

A contemporary challenge for the scalability of quantum networks is develo** quantum
nodes with simultaneous high photonic efficiency and long-lived qubits. Here we present a …

Graph codes play an important role in photonic quantum technologies as they provide
significant protection against qubit loss, a dominant noise mechanism. Here, we develop …

The scaling barriers currently faced by both quantum networking and quantum computing
technologies ultimately amount to the same core challenge of distributing high-quality …

Efficient coupling of optically active qubits to optical cavities is a key challenge for solid-state-
based quantum optics experiments and future quantum technologies. Here we present a …

A central goal in creating long-distance quantum networks and distributed quantum
computing is the development of interconnected and individually controlled qubit nodes …

Integrated photonic devices in diamond have tremendous potential for many quantum
applications, including long-distance quantum communication, quantum information …